[NETFILTER]: Add H.323 conntrack/NAT helper

Signed-off-by: Jing Min Zhao <zhaojignmin@hotmail.com>
Signed-off-by: Patrick McHardy <kaber@trash.net>
Signed-off-by: David S. Miller <davem@davemloft.net>
This commit is contained in:
Jing Min Zhao 2006-03-20 23:41:17 -08:00 committed by David S. Miller
parent 30ca3e376e
commit 5e35941d99
10 changed files with 6231 additions and 0 deletions

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@ -29,6 +29,7 @@ union ip_conntrack_expect_proto {
};
/* Add protocol helper include file here */
#include <linux/netfilter_ipv4/ip_conntrack_h323.h>
#include <linux/netfilter_ipv4/ip_conntrack_pptp.h>
#include <linux/netfilter_ipv4/ip_conntrack_amanda.h>
#include <linux/netfilter_ipv4/ip_conntrack_ftp.h>
@ -37,6 +38,7 @@ union ip_conntrack_expect_proto {
/* per conntrack: application helper private data */
union ip_conntrack_help {
/* insert conntrack helper private data (master) here */
struct ip_ct_h323_master ct_h323_info;
struct ip_ct_pptp_master ct_pptp_info;
struct ip_ct_ftp_master ct_ftp_info;
struct ip_ct_irc_master ct_irc_info;

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@ -0,0 +1,30 @@
#ifndef _IP_CONNTRACK_H323_H
#define _IP_CONNTRACK_H323_H
#ifdef __KERNEL__
#define RAS_PORT 1719
#define Q931_PORT 1720
#define H323_RTP_CHANNEL_MAX 4 /* Audio, video, FAX and other */
/* This structure exists only once per master */
struct ip_ct_h323_master {
/* Original and NATed Q.931 or H.245 signal ports */
u_int16_t sig_port[IP_CT_DIR_MAX];
/* Original and NATed RTP ports */
u_int16_t rtp_port[H323_RTP_CHANNEL_MAX][IP_CT_DIR_MAX];
union {
/* RAS connection timeout */
u_int32_t timeout;
/* Next TPKT length (for separate TPKT header and data) */
u_int16_t tpkt_len[IP_CT_DIR_MAX];
};
};
#endif
#endif

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@ -168,6 +168,26 @@ config IP_NF_PPTP
If you want to compile it as a module, say M here and read
Documentation/modules.txt. If unsure, say `N'.
config IP_NF_H323
tristate 'H.323 protocol support'
depends on IP_NF_CONNTRACK
help
H.323 is a VoIP signalling protocol from ITU-T. As one of the most
important VoIP protocols, it is widely used by voice hardware and
software including voice gateways, IP phones, Netmeeting, OpenPhone,
Gnomemeeting, etc.
With this module you can support H.323 on a connection tracking/NAT
firewall.
This module supports RAS, Fast-start, H.245 tunnelling, RTP/RTCP
and T.120 based data and applications including audio, video, FAX,
chat, whiteboard, file transfer, etc. For more information, please
see http://nath323.sourceforge.net/.
If you want to compile it as a module, say 'M' here and read
Documentation/modules.txt. If unsure, say 'N'.
config IP_NF_QUEUE
tristate "IP Userspace queueing via NETLINK (OBSOLETE)"
help
@ -484,6 +504,12 @@ config IP_NF_NAT_PPTP
default IP_NF_NAT if IP_NF_PPTP=y
default m if IP_NF_PPTP=m
config IP_NF_NAT_H323
tristate
depends on IP_NF_IPTABLES!=n && IP_NF_CONNTRACK!=n && IP_NF_NAT!=n
default IP_NF_NAT if IP_NF_H323=y
default m if IP_NF_H323=m
# mangle + specific targets
config IP_NF_MANGLE
tristate "Packet mangling"

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@ -10,6 +10,9 @@ iptable_nat-objs := ip_nat_rule.o ip_nat_standalone.o
ip_conntrack_pptp-objs := ip_conntrack_helper_pptp.o ip_conntrack_proto_gre.o
ip_nat_pptp-objs := ip_nat_helper_pptp.o ip_nat_proto_gre.o
ip_conntrack_h323-objs := ip_conntrack_helper_h323.o ip_conntrack_helper_h323_asn1.o
ip_nat_h323-objs := ip_nat_helper_h323.o
# connection tracking
obj-$(CONFIG_IP_NF_CONNTRACK) += ip_conntrack.o
obj-$(CONFIG_IP_NF_NAT) += ip_nat.o
@ -22,6 +25,7 @@ obj-$(CONFIG_IP_NF_CONNTRACK_NETLINK) += ip_conntrack_netlink.o
obj-$(CONFIG_IP_NF_CT_PROTO_SCTP) += ip_conntrack_proto_sctp.o
# connection tracking helpers
obj-$(CONFIG_IP_NF_H323) += ip_conntrack_h323.o
obj-$(CONFIG_IP_NF_PPTP) += ip_conntrack_pptp.o
obj-$(CONFIG_IP_NF_AMANDA) += ip_conntrack_amanda.o
obj-$(CONFIG_IP_NF_TFTP) += ip_conntrack_tftp.o
@ -30,6 +34,7 @@ obj-$(CONFIG_IP_NF_IRC) += ip_conntrack_irc.o
obj-$(CONFIG_IP_NF_NETBIOS_NS) += ip_conntrack_netbios_ns.o
# NAT helpers
obj-$(CONFIG_IP_NF_NAT_H323) += ip_nat_h323.o
obj-$(CONFIG_IP_NF_NAT_PPTP) += ip_nat_pptp.o
obj-$(CONFIG_IP_NF_NAT_AMANDA) += ip_nat_amanda.o
obj-$(CONFIG_IP_NF_NAT_TFTP) += ip_nat_tftp.o

File diff suppressed because it is too large Load Diff

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@ -0,0 +1,870 @@
/****************************************************************************
* ip_conntrack_helper_h323_asn1.c - BER and PER decoding library for H.323
* conntrack/NAT module.
*
* Copyright (c) 2006 by Jing Min Zhao <zhaojingmin@hotmail.com>
*
* This source code is licensed under General Public License version 2.
*
* See ip_conntrack_helper_h323_asn1.h for details.
*
****************************************************************************/
#ifdef __KERNEL__
#include <linux/kernel.h>
#else
#include <stdio.h>
#endif
#include "ip_conntrack_helper_h323_asn1.h"
/* Trace Flag */
#ifndef H323_TRACE
#define H323_TRACE 0
#endif
#if H323_TRACE
#define TAB_SIZE 4
#define IFTHEN(cond, act) if(cond){act;}
#ifdef __KERNEL__
#define PRINT printk
#else
#define PRINT printf
#endif
#define FNAME(name) name,
#else
#define IFTHEN(cond, act)
#define PRINT(fmt, args...)
#define FNAME(name)
#endif
/* ASN.1 Types */
#define NUL 0
#define BOOL 1
#define OID 2
#define INT 3
#define ENUM 4
#define BITSTR 5
#define NUMSTR 6
#define NUMDGT 6
#define TBCDSTR 6
#define OCTSTR 7
#define PRTSTR 7
#define IA5STR 7
#define GENSTR 7
#define BMPSTR 8
#define SEQ 9
#define SET 9
#define SEQOF 10
#define SETOF 10
#define CHOICE 11
/* Constraint Types */
#define FIXD 0
/* #define BITS 1-8 */
#define BYTE 9
#define WORD 10
#define CONS 11
#define SEMI 12
#define UNCO 13
/* ASN.1 Type Attributes */
#define SKIP 0
#define STOP 1
#define DECODE 2
#define EXT 4
#define OPEN 8
#define OPT 16
/* ASN.1 Field Structure */
typedef struct field_t {
#if H323_TRACE
char *name;
#endif
unsigned char type;
unsigned char sz;
unsigned char lb;
unsigned char ub;
unsigned short attr;
unsigned short offset;
struct field_t *fields;
} field_t;
/* Bit Stream */
typedef struct {
unsigned char *buf;
unsigned char *beg;
unsigned char *end;
unsigned char *cur;
unsigned bit;
} bitstr_t;
/* Tool Functions */
#define INC_BIT(bs) if((++bs->bit)>7){bs->cur++;bs->bit=0;}
#define INC_BITS(bs,b) if((bs->bit+=b)>7){bs->cur+=bs->bit>>3;bs->bit&=7;}
#define BYTE_ALIGN(bs) if(bs->bit){bs->cur++;bs->bit=0;}
#define CHECK_BOUND(bs,n) if(bs->cur+(n)>bs->end)return(H323_ERROR_BOUND)
static unsigned get_len(bitstr_t * bs);
static unsigned get_bit(bitstr_t * bs);
static unsigned get_bits(bitstr_t * bs, unsigned b);
static unsigned get_bitmap(bitstr_t * bs, unsigned b);
static unsigned get_uint(bitstr_t * bs, int b);
/* Decoder Functions */
static int decode_nul(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_bool(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_oid(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_int(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_enum(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_bitstr(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_numstr(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_octstr(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_bmpstr(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_seq(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_seqof(bitstr_t * bs, field_t * f, char *base, int level);
static int decode_choice(bitstr_t * bs, field_t * f, char *base, int level);
/* Decoder Functions Vector */
typedef int (*decoder_t) (bitstr_t *, field_t *, char *, int);
static decoder_t Decoders[] = {
decode_nul,
decode_bool,
decode_oid,
decode_int,
decode_enum,
decode_bitstr,
decode_numstr,
decode_octstr,
decode_bmpstr,
decode_seq,
decode_seqof,
decode_choice,
};
/****************************************************************************
* H.323 Types
****************************************************************************/
#include "ip_conntrack_helper_h323_types.c"
/****************************************************************************
* Functions
****************************************************************************/
/* Assume bs is aligned && v < 16384 */
unsigned get_len(bitstr_t * bs)
{
unsigned v;
v = *bs->cur++;
if (v & 0x80) {
v &= 0x3f;
v <<= 8;
v += *bs->cur++;
}
return v;
}
/****************************************************************************/
unsigned get_bit(bitstr_t * bs)
{
unsigned b = (*bs->cur) & (0x80 >> bs->bit);
INC_BIT(bs);
return b;
}
/****************************************************************************/
/* Assume b <= 8 */
unsigned get_bits(bitstr_t * bs, unsigned b)
{
unsigned v, l;
v = (*bs->cur) & (0xffU >> bs->bit);
l = b + bs->bit;
if (l < 8) {
v >>= 8 - l;
bs->bit = l;
} else if (l == 8) {
bs->cur++;
bs->bit = 0;
} else { /* l > 8 */
v <<= 8;
v += *(++bs->cur);
v >>= 16 - l;
bs->bit = l - 8;
}
return v;
}
/****************************************************************************/
/* Assume b <= 32 */
unsigned get_bitmap(bitstr_t * bs, unsigned b)
{
unsigned v, l, shift, bytes;
if (!b)
return 0;
l = bs->bit + b;
if (l < 8) {
v = (unsigned) (*bs->cur) << (bs->bit + 24);
bs->bit = l;
} else if (l == 8) {
v = (unsigned) (*bs->cur++) << (bs->bit + 24);
bs->bit = 0;
} else {
for (bytes = l >> 3, shift = 24, v = 0; bytes;
bytes--, shift -= 8)
v |= (unsigned) (*bs->cur++) << shift;
if (l < 32) {
v |= (unsigned) (*bs->cur) << shift;
v <<= bs->bit;
} else if (l > 32) {
v <<= bs->bit;
v |= (*bs->cur) >> (8 - bs->bit);
}
bs->bit = l & 0x7;
}
v &= 0xffffffff << (32 - b);
return v;
}
/****************************************************************************
* Assume bs is aligned and sizeof(unsigned int) == 4
****************************************************************************/
unsigned get_uint(bitstr_t * bs, int b)
{
unsigned v = 0;
switch (b) {
case 4:
v |= *bs->cur++;
v <<= 8;
case 3:
v |= *bs->cur++;
v <<= 8;
case 2:
v |= *bs->cur++;
v <<= 8;
case 1:
v |= *bs->cur++;
break;
}
return v;
}
/****************************************************************************/
int decode_nul(bitstr_t * bs, field_t * f, char *base, int level)
{
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_bool(bitstr_t * bs, field_t * f, char *base, int level)
{
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
INC_BIT(bs);
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_oid(bitstr_t * bs, field_t * f, char *base, int level)
{
int len;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 1);
len = *bs->cur++;
bs->cur += len;
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_int(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned len;
PRINT("%*.s%s", level * TAB_SIZE, " ", f->name);
switch (f->sz) {
case BYTE: /* Range == 256 */
BYTE_ALIGN(bs);
bs->cur++;
break;
case WORD: /* 257 <= Range <= 64K */
BYTE_ALIGN(bs);
bs->cur += 2;
break;
case CONS: /* 64K < Range < 4G */
len = get_bits(bs, 2) + 1;
BYTE_ALIGN(bs);
if (base && (f->attr & DECODE)) { /* timeToLive */
unsigned v = get_uint(bs, len) + f->lb;
PRINT(" = %u", v);
*((unsigned *) (base + f->offset)) = v;
}
bs->cur += len;
break;
case UNCO:
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 2);
len = get_len(bs);
bs->cur += len;
break;
default: /* 2 <= Range <= 255 */
INC_BITS(bs, f->sz);
break;
}
PRINT("\n");
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_enum(bitstr_t * bs, field_t * f, char *base, int level)
{
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
if ((f->attr & EXT) && get_bit(bs)) {
INC_BITS(bs, 7);
} else {
INC_BITS(bs, f->sz);
}
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_bitstr(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned len;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
BYTE_ALIGN(bs);
switch (f->sz) {
case FIXD: /* fixed length > 16 */
len = f->lb;
break;
case WORD: /* 2-byte length */
CHECK_BOUND(bs, 2);
len = (*bs->cur++) << 8;
len += (*bs->cur++) + f->lb;
break;
case SEMI:
CHECK_BOUND(bs, 2);
len = get_len(bs);
break;
default:
len = 0;
break;
}
bs->cur += len >> 3;
bs->bit = len & 7;
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_numstr(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned len;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
/* 2 <= Range <= 255 */
len = get_bits(bs, f->sz) + f->lb;
BYTE_ALIGN(bs);
INC_BITS(bs, (len << 2));
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_octstr(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned len;
PRINT("%*.s%s", level * TAB_SIZE, " ", f->name);
switch (f->sz) {
case FIXD: /* Range == 1 */
if (f->lb > 2) {
BYTE_ALIGN(bs);
if (base && (f->attr & DECODE)) {
/* The IP Address */
IFTHEN(f->lb == 4,
PRINT(" = %d.%d.%d.%d:%d",
bs->cur[0], bs->cur[1],
bs->cur[2], bs->cur[3],
bs->cur[4] * 256 + bs->cur[5]));
*((unsigned *) (base + f->offset)) =
bs->cur - bs->buf;
}
}
len = f->lb;
break;
case BYTE: /* Range == 256 */
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 1);
len = (*bs->cur++) + f->lb;
break;
case SEMI:
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 2);
len = get_len(bs) + f->lb;
break;
default: /* 2 <= Range <= 255 */
len = get_bits(bs, f->sz) + f->lb;
BYTE_ALIGN(bs);
break;
}
bs->cur += len;
PRINT("\n");
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_bmpstr(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned len;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
switch (f->sz) {
case BYTE: /* Range == 256 */
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 1);
len = (*bs->cur++) + f->lb;
break;
default: /* 2 <= Range <= 255 */
len = get_bits(bs, f->sz) + f->lb;
BYTE_ALIGN(bs);
break;
}
bs->cur += len << 1;
CHECK_BOUND(bs, 0);
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_seq(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned ext, bmp, i, opt, len = 0, bmp2, bmp2_len;
int err;
field_t *son;
unsigned char *beg = NULL;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
/* Decode? */
base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
/* Extensible? */
ext = (f->attr & EXT) ? get_bit(bs) : 0;
/* Get fields bitmap */
bmp = get_bitmap(bs, f->sz);
if (base)
*(unsigned *) base = bmp;
/* Decode the root components */
for (i = opt = 0, son = f->fields; i < f->lb; i++, son++) {
if (son->attr & STOP) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
son->name);
return H323_ERROR_STOP;
}
if (son->attr & OPT) { /* Optional component */
if (!((0x80000000U >> (opt++)) & bmp)) /* Not exist */
continue;
}
/* Decode */
if (son->attr & OPEN) { /* Open field */
CHECK_BOUND(bs, 2);
len = get_len(bs);
CHECK_BOUND(bs, len);
if (!base) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE,
" ", son->name);
bs->cur += len;
continue;
}
beg = bs->cur;
/* Decode */
if ((err = (Decoders[son->type]) (bs, son, base,
level + 1)) >
H323_ERROR_STOP)
return err;
bs->cur = beg + len;
bs->bit = 0;
} else if ((err = (Decoders[son->type]) (bs, son, base,
level + 1)))
return err;
}
/* No extension? */
if (!ext)
return H323_ERROR_NONE;
/* Get the extension bitmap */
bmp2_len = get_bits(bs, 7) + 1;
CHECK_BOUND(bs, (bmp2_len + 7) >> 3);
bmp2 = get_bitmap(bs, bmp2_len);
bmp |= bmp2 >> f->sz;
if (base)
*(unsigned *) base = bmp;
BYTE_ALIGN(bs);
/* Decode the extension components */
for (opt = 0; opt < bmp2_len; opt++, i++, son++) {
if (son->attr & STOP) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
son->name);
return H323_ERROR_STOP;
}
if (!((0x80000000 >> opt) & bmp2)) /* Not present */
continue;
/* Check Range */
if (i >= f->ub) { /* Newer Version? */
CHECK_BOUND(bs, 2);
len = get_len(bs);
CHECK_BOUND(bs, len);
bs->cur += len;
continue;
}
CHECK_BOUND(bs, 2);
len = get_len(bs);
CHECK_BOUND(bs, len);
if (!base || !(son->attr & DECODE)) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
son->name);
bs->cur += len;
continue;
}
beg = bs->cur;
if ((err = (Decoders[son->type]) (bs, son, base,
level + 1)) >
H323_ERROR_STOP)
return err;
bs->cur = beg + len;
bs->bit = 0;
}
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_seqof(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned count, effective_count = 0, i, len = 0;
int err;
field_t *son;
unsigned char *beg = NULL;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
/* Decode? */
base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
/* Decode item count */
switch (f->sz) {
case BYTE:
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 1);
count = *bs->cur++;
break;
case WORD:
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 2);
count = *bs->cur++;
count <<= 8;
count = *bs->cur++;
break;
case SEMI:
BYTE_ALIGN(bs);
CHECK_BOUND(bs, 2);
count = get_len(bs);
break;
default:
count = get_bits(bs, f->sz);
break;
}
count += f->lb;
/* Write Count */
if (base) {
effective_count = count > f->ub ? f->ub : count;
*(unsigned *) base = effective_count;
base += sizeof(unsigned);
}
/* Decode nested field */
son = f->fields;
if (base)
base -= son->offset;
for (i = 0; i < count; i++) {
if (son->attr & OPEN) {
BYTE_ALIGN(bs);
len = get_len(bs);
CHECK_BOUND(bs, len);
if (!base || !(son->attr & DECODE)) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE,
" ", son->name);
bs->cur += len;
continue;
}
beg = bs->cur;
if ((err = (Decoders[son->type]) (bs, son,
i <
effective_count ?
base : NULL,
level + 1)) >
H323_ERROR_STOP)
return err;
bs->cur = beg + len;
bs->bit = 0;
} else
if ((err = (Decoders[son->type]) (bs, son,
i < effective_count ?
base : NULL,
level + 1)))
return err;
if (base)
base += son->offset;
}
return H323_ERROR_NONE;
}
/****************************************************************************/
int decode_choice(bitstr_t * bs, field_t * f, char *base, int level)
{
unsigned type, ext, len = 0;
int err;
field_t *son;
unsigned char *beg = NULL;
PRINT("%*.s%s\n", level * TAB_SIZE, " ", f->name);
/* Decode? */
base = (base && (f->attr & DECODE)) ? base + f->offset : NULL;
/* Decode the choice index number */
if ((f->attr & EXT) && get_bit(bs)) {
ext = 1;
type = get_bits(bs, 7) + f->lb;
} else {
ext = 0;
type = get_bits(bs, f->sz);
}
/* Check Range */
if (type >= f->ub) { /* Newer version? */
BYTE_ALIGN(bs);
len = get_len(bs);
CHECK_BOUND(bs, len);
bs->cur += len;
return H323_ERROR_NONE;
}
/* Write Type */
if (base)
*(unsigned *) base = type;
/* Transfer to son level */
son = &f->fields[type];
if (son->attr & STOP) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ", son->name);
return H323_ERROR_STOP;
}
if (ext || (son->attr & OPEN)) {
BYTE_ALIGN(bs);
len = get_len(bs);
CHECK_BOUND(bs, len);
if (!base || !(son->attr & DECODE)) {
PRINT("%*.s%s\n", (level + 1) * TAB_SIZE, " ",
son->name);
bs->cur += len;
return H323_ERROR_NONE;
}
beg = bs->cur;
if ((err = (Decoders[son->type]) (bs, son, base, level + 1)) >
H323_ERROR_STOP)
return err;
bs->cur = beg + len;
bs->bit = 0;
} else if ((err = (Decoders[son->type]) (bs, son, base, level + 1)))
return err;
return H323_ERROR_NONE;
}
/****************************************************************************/
int DecodeRasMessage(unsigned char *buf, size_t sz, RasMessage * ras)
{
static field_t ras_message = {
FNAME("RasMessage") CHOICE, 5, 24, 32, DECODE | EXT,
0, _RasMessage
};
bitstr_t bs;
bs.buf = bs.beg = bs.cur = buf;
bs.end = buf + sz;
bs.bit = 0;
return decode_choice(&bs, &ras_message, (char *) ras, 0);
}
/****************************************************************************/
static int DecodeH323_UserInformation(unsigned char *buf, unsigned char *beg,
size_t sz, H323_UserInformation * uuie)
{
static field_t h323_userinformation = {
FNAME("H323-UserInformation") SEQ, 1, 2, 2, DECODE | EXT,
0, _H323_UserInformation
};
bitstr_t bs;
bs.buf = buf;
bs.beg = bs.cur = beg;
bs.end = beg + sz;
bs.bit = 0;
return decode_seq(&bs, &h323_userinformation, (char *) uuie, 0);
}
/****************************************************************************/
int DecodeMultimediaSystemControlMessage(unsigned char *buf, size_t sz,
MultimediaSystemControlMessage *
mscm)
{
static field_t multimediasystemcontrolmessage = {
FNAME("MultimediaSystemControlMessage") CHOICE, 2, 4, 4,
DECODE | EXT, 0, _MultimediaSystemControlMessage
};
bitstr_t bs;
bs.buf = bs.beg = bs.cur = buf;
bs.end = buf + sz;
bs.bit = 0;
return decode_choice(&bs, &multimediasystemcontrolmessage,
(char *) mscm, 0);
}
/****************************************************************************/
int DecodeQ931(unsigned char *buf, size_t sz, Q931 * q931)
{
unsigned char *p = buf;
int len;
if (!p || sz < 1)
return H323_ERROR_BOUND;
/* Protocol Discriminator */
if (*p != 0x08) {
PRINT("Unknown Protocol Discriminator\n");
return H323_ERROR_RANGE;
}
p++;
sz--;
/* CallReferenceValue */
if (sz < 1)
return H323_ERROR_BOUND;
len = *p++;
sz--;
if (sz < len)
return H323_ERROR_BOUND;
p += len;
sz -= len;
/* Message Type */
if (sz < 1)
return H323_ERROR_BOUND;
q931->MessageType = *p++;
PRINT("MessageType = %02X\n", q931->MessageType);
if (*p & 0x80) {
p++;
sz--;
}
/* Decode Information Elements */
while (sz > 0) {
if (*p == 0x7e) { /* UserUserIE */
if (sz < 3)
break;
p++;
len = *p++ << 8;
len |= *p++;
sz -= 3;
if (sz < len)
break;
p++;
len--;
return DecodeH323_UserInformation(buf, p, len,
&q931->UUIE);
}
p++;
sz--;
if (sz < 1)
break;
len = *p++;
if (sz < len)
break;
p += len;
sz -= len;
}
PRINT("Q.931 UUIE not found\n");
return H323_ERROR_BOUND;
}

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/****************************************************************************
* ip_conntrack_helper_h323_asn1.h - BER and PER decoding library for H.323
* conntrack/NAT module.
*
* Copyright (c) 2006 by Jing Min Zhao <zhaojingmin@hotmail.com>
*
* This source code is licensed under General Public License version 2.
*
*
* This library is based on H.225 version 4, H.235 version 2 and H.245
* version 7. It is extremely optimized to decode only the absolutely
* necessary objects in a signal for Linux kernel NAT module use, so don't
* expect it to be a full ASN.1 library.
*
* Features:
*
* 1. Small. The total size of code plus data is less than 20 KB (IA32).
* 2. Fast. Decoding Netmeeting's Setup signal 1 million times on a PIII 866
* takes only 3.9 seconds.
* 3. No memory allocation. It uses a static object. No need to initialize or
* cleanup.
* 4. Thread safe.
* 5. Support embedded architectures that has no misaligned memory access
* support.
*
* Limitations:
*
* 1. At most 30 faststart entries. Actually this is limited by ethernet's MTU.
* If a Setup signal contains more than 30 faststart, the packet size will
* very likely exceed the MTU size, then the TPKT will be fragmented. I
* don't know how to handle this in a Netfilter module. Anybody can help?
* Although I think 30 is enough for most of the cases.
* 2. IPv4 addresses only.
*
****************************************************************************/
#ifndef _IP_CONNTRACK_HELPER_H323_ASN1_H_
#define _IP_CONNTRACK_HELPER_H323_ASN1_H_
/*****************************************************************************
* H.323 Types
****************************************************************************/
#include "ip_conntrack_helper_h323_types.h"
typedef struct {
enum {
Q931_NationalEscape = 0x00,
Q931_Alerting = 0x01,
Q931_CallProceeding = 0x02,
Q931_Connect = 0x07,
Q931_ConnectAck = 0x0F,
Q931_Progress = 0x03,
Q931_Setup = 0x05,
Q931_SetupAck = 0x0D,
Q931_Resume = 0x26,
Q931_ResumeAck = 0x2E,
Q931_ResumeReject = 0x22,
Q931_Suspend = 0x25,
Q931_SuspendAck = 0x2D,
Q931_SuspendReject = 0x21,
Q931_UserInformation = 0x20,
Q931_Disconnect = 0x45,
Q931_Release = 0x4D,
Q931_ReleaseComplete = 0x5A,
Q931_Restart = 0x46,
Q931_RestartAck = 0x4E,
Q931_Segment = 0x60,
Q931_CongestionCtrl = 0x79,
Q931_Information = 0x7B,
Q931_Notify = 0x6E,
Q931_Status = 0x7D,
Q931_StatusEnquiry = 0x75,
Q931_Facility = 0x62
} MessageType;
H323_UserInformation UUIE;
} Q931;
/*****************************************************************************
* Decode Functions Return Codes
****************************************************************************/
#define H323_ERROR_NONE 0 /* Decoded successfully */
#define H323_ERROR_STOP 1 /* Decoding stopped, not really an error */
#define H323_ERROR_BOUND -1
#define H323_ERROR_RANGE -2
/*****************************************************************************
* Decode Functions
****************************************************************************/
int DecodeRasMessage(unsigned char *buf, size_t sz, RasMessage * ras);
int DecodeQ931(unsigned char *buf, size_t sz, Q931 * q931);
int DecodeMultimediaSystemControlMessage(unsigned char *buf, size_t sz,
MultimediaSystemControlMessage *
mscm);
#endif

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/* Generated by Jing Min Zhao's ASN.1 parser, Mar 15 2006
*
* Copyright (c) 2006 Jing Min Zhao <zhaojingmin@users.sourceforge.net>
*
* This source code is licensed under General Public License version 2.
*/
typedef struct TransportAddress_ipAddress { /* SEQUENCE */
int options; /* No use */
unsigned ip;
} TransportAddress_ipAddress;
typedef struct TransportAddress { /* CHOICE */
enum {
eTransportAddress_ipAddress,
eTransportAddress_ipSourceRoute,
eTransportAddress_ipxAddress,
eTransportAddress_ip6Address,
eTransportAddress_netBios,
eTransportAddress_nsap,
eTransportAddress_nonStandardAddress,
} choice;
union {
TransportAddress_ipAddress ipAddress;
};
} TransportAddress;
typedef struct DataProtocolCapability { /* CHOICE */
enum {
eDataProtocolCapability_nonStandard,
eDataProtocolCapability_v14buffered,
eDataProtocolCapability_v42lapm,
eDataProtocolCapability_hdlcFrameTunnelling,
eDataProtocolCapability_h310SeparateVCStack,
eDataProtocolCapability_h310SingleVCStack,
eDataProtocolCapability_transparent,
eDataProtocolCapability_segmentationAndReassembly,
eDataProtocolCapability_hdlcFrameTunnelingwSAR,
eDataProtocolCapability_v120,
eDataProtocolCapability_separateLANStack,
eDataProtocolCapability_v76wCompression,
eDataProtocolCapability_tcp,
eDataProtocolCapability_udp,
} choice;
} DataProtocolCapability;
typedef struct DataApplicationCapability_application { /* CHOICE */
enum {
eDataApplicationCapability_application_nonStandard,
eDataApplicationCapability_application_t120,
eDataApplicationCapability_application_dsm_cc,
eDataApplicationCapability_application_userData,
eDataApplicationCapability_application_t84,
eDataApplicationCapability_application_t434,
eDataApplicationCapability_application_h224,
eDataApplicationCapability_application_nlpid,
eDataApplicationCapability_application_dsvdControl,
eDataApplicationCapability_application_h222DataPartitioning,
eDataApplicationCapability_application_t30fax,
eDataApplicationCapability_application_t140,
eDataApplicationCapability_application_t38fax,
eDataApplicationCapability_application_genericDataCapability,
} choice;
union {
DataProtocolCapability t120;
};
} DataApplicationCapability_application;
typedef struct DataApplicationCapability { /* SEQUENCE */
int options; /* No use */
DataApplicationCapability_application application;
} DataApplicationCapability;
typedef struct DataType { /* CHOICE */
enum {
eDataType_nonStandard,
eDataType_nullData,
eDataType_videoData,
eDataType_audioData,
eDataType_data,
eDataType_encryptionData,
eDataType_h235Control,
eDataType_h235Media,
eDataType_multiplexedStream,
} choice;
union {
DataApplicationCapability data;
};
} DataType;
typedef struct UnicastAddress_iPAddress { /* SEQUENCE */
int options; /* No use */
unsigned network;
} UnicastAddress_iPAddress;
typedef struct UnicastAddress { /* CHOICE */
enum {
eUnicastAddress_iPAddress,
eUnicastAddress_iPXAddress,
eUnicastAddress_iP6Address,
eUnicastAddress_netBios,
eUnicastAddress_iPSourceRouteAddress,
eUnicastAddress_nsap,
eUnicastAddress_nonStandardAddress,
} choice;
union {
UnicastAddress_iPAddress iPAddress;
};
} UnicastAddress;
typedef struct H245_TransportAddress { /* CHOICE */
enum {
eH245_TransportAddress_unicastAddress,
eH245_TransportAddress_multicastAddress,
} choice;
union {
UnicastAddress unicastAddress;
};
} H245_TransportAddress;
typedef struct H2250LogicalChannelParameters { /* SEQUENCE */
enum {
eH2250LogicalChannelParameters_nonStandard = (1 << 31),
eH2250LogicalChannelParameters_associatedSessionID =
(1 << 30),
eH2250LogicalChannelParameters_mediaChannel = (1 << 29),
eH2250LogicalChannelParameters_mediaGuaranteedDelivery =
(1 << 28),
eH2250LogicalChannelParameters_mediaControlChannel =
(1 << 27),
eH2250LogicalChannelParameters_mediaControlGuaranteedDelivery
= (1 << 26),
eH2250LogicalChannelParameters_silenceSuppression = (1 << 25),
eH2250LogicalChannelParameters_destination = (1 << 24),
eH2250LogicalChannelParameters_dynamicRTPPayloadType =
(1 << 23),
eH2250LogicalChannelParameters_mediaPacketization = (1 << 22),
eH2250LogicalChannelParameters_transportCapability =
(1 << 21),
eH2250LogicalChannelParameters_redundancyEncoding = (1 << 20),
eH2250LogicalChannelParameters_source = (1 << 19),
} options;
H245_TransportAddress mediaChannel;
H245_TransportAddress mediaControlChannel;
} H2250LogicalChannelParameters;
typedef struct OpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters { /* CHOICE */
enum {
eOpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters_h222LogicalChannelParameters,
eOpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters_h223LogicalChannelParameters,
eOpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters_v76LogicalChannelParameters,
eOpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters_h2250LogicalChannelParameters,
eOpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters_none,
} choice;
union {
H2250LogicalChannelParameters h2250LogicalChannelParameters;
};
} OpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters;
typedef struct OpenLogicalChannel_forwardLogicalChannelParameters { /* SEQUENCE */
enum {
eOpenLogicalChannel_forwardLogicalChannelParameters_portNumber
= (1 << 31),
eOpenLogicalChannel_forwardLogicalChannelParameters_forwardLogicalChannelDependency
= (1 << 30),
eOpenLogicalChannel_forwardLogicalChannelParameters_replacementFor
= (1 << 29),
} options;
DataType dataType;
OpenLogicalChannel_forwardLogicalChannelParameters_multiplexParameters
multiplexParameters;
} OpenLogicalChannel_forwardLogicalChannelParameters;
typedef struct OpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters { /* CHOICE */
enum {
eOpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters_h223LogicalChannelParameters,
eOpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters_v76LogicalChannelParameters,
eOpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters_h2250LogicalChannelParameters,
} choice;
union {
H2250LogicalChannelParameters h2250LogicalChannelParameters;
};
} OpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters;
typedef struct OpenLogicalChannel_reverseLogicalChannelParameters { /* SEQUENCE */
enum {
eOpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters
= (1 << 31),
eOpenLogicalChannel_reverseLogicalChannelParameters_reverseLogicalChannelDependency
= (1 << 30),
eOpenLogicalChannel_reverseLogicalChannelParameters_replacementFor
= (1 << 29),
} options;
OpenLogicalChannel_reverseLogicalChannelParameters_multiplexParameters
multiplexParameters;
} OpenLogicalChannel_reverseLogicalChannelParameters;
typedef struct NetworkAccessParameters_networkAddress { /* CHOICE */
enum {
eNetworkAccessParameters_networkAddress_q2931Address,
eNetworkAccessParameters_networkAddress_e164Address,
eNetworkAccessParameters_networkAddress_localAreaAddress,
} choice;
union {
H245_TransportAddress localAreaAddress;
};
} NetworkAccessParameters_networkAddress;
typedef struct NetworkAccessParameters { /* SEQUENCE */
enum {
eNetworkAccessParameters_distribution = (1 << 31),
eNetworkAccessParameters_externalReference = (1 << 30),
eNetworkAccessParameters_t120SetupProcedure = (1 << 29),
} options;
NetworkAccessParameters_networkAddress networkAddress;
} NetworkAccessParameters;
typedef struct OpenLogicalChannel { /* SEQUENCE */
enum {
eOpenLogicalChannel_reverseLogicalChannelParameters =
(1 << 31),
eOpenLogicalChannel_separateStack = (1 << 30),
eOpenLogicalChannel_encryptionSync = (1 << 29),
} options;
OpenLogicalChannel_forwardLogicalChannelParameters
forwardLogicalChannelParameters;
OpenLogicalChannel_reverseLogicalChannelParameters
reverseLogicalChannelParameters;
NetworkAccessParameters separateStack;
} OpenLogicalChannel;
typedef struct Setup_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Setup_UUIE_fastStart;
typedef struct Setup_UUIE { /* SEQUENCE */
enum {
eSetup_UUIE_h245Address = (1 << 31),
eSetup_UUIE_sourceAddress = (1 << 30),
eSetup_UUIE_destinationAddress = (1 << 29),
eSetup_UUIE_destCallSignalAddress = (1 << 28),
eSetup_UUIE_destExtraCallInfo = (1 << 27),
eSetup_UUIE_destExtraCRV = (1 << 26),
eSetup_UUIE_callServices = (1 << 25),
eSetup_UUIE_sourceCallSignalAddress = (1 << 24),
eSetup_UUIE_remoteExtensionAddress = (1 << 23),
eSetup_UUIE_callIdentifier = (1 << 22),
eSetup_UUIE_h245SecurityCapability = (1 << 21),
eSetup_UUIE_tokens = (1 << 20),
eSetup_UUIE_cryptoTokens = (1 << 19),
eSetup_UUIE_fastStart = (1 << 18),
eSetup_UUIE_mediaWaitForConnect = (1 << 17),
eSetup_UUIE_canOverlapSend = (1 << 16),
eSetup_UUIE_endpointIdentifier = (1 << 15),
eSetup_UUIE_multipleCalls = (1 << 14),
eSetup_UUIE_maintainConnection = (1 << 13),
eSetup_UUIE_connectionParameters = (1 << 12),
eSetup_UUIE_language = (1 << 11),
eSetup_UUIE_presentationIndicator = (1 << 10),
eSetup_UUIE_screeningIndicator = (1 << 9),
eSetup_UUIE_serviceControl = (1 << 8),
eSetup_UUIE_symmetricOperationRequired = (1 << 7),
eSetup_UUIE_capacity = (1 << 6),
eSetup_UUIE_circuitInfo = (1 << 5),
eSetup_UUIE_desiredProtocols = (1 << 4),
eSetup_UUIE_neededFeatures = (1 << 3),
eSetup_UUIE_desiredFeatures = (1 << 2),
eSetup_UUIE_supportedFeatures = (1 << 1),
eSetup_UUIE_parallelH245Control = (1 << 0),
} options;
TransportAddress h245Address;
TransportAddress destCallSignalAddress;
TransportAddress sourceCallSignalAddress;
Setup_UUIE_fastStart fastStart;
} Setup_UUIE;
typedef struct CallProceeding_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} CallProceeding_UUIE_fastStart;
typedef struct CallProceeding_UUIE { /* SEQUENCE */
enum {
eCallProceeding_UUIE_h245Address = (1 << 31),
eCallProceeding_UUIE_callIdentifier = (1 << 30),
eCallProceeding_UUIE_h245SecurityMode = (1 << 29),
eCallProceeding_UUIE_tokens = (1 << 28),
eCallProceeding_UUIE_cryptoTokens = (1 << 27),
eCallProceeding_UUIE_fastStart = (1 << 26),
eCallProceeding_UUIE_multipleCalls = (1 << 25),
eCallProceeding_UUIE_maintainConnection = (1 << 24),
eCallProceeding_UUIE_fastConnectRefused = (1 << 23),
eCallProceeding_UUIE_featureSet = (1 << 22),
} options;
TransportAddress h245Address;
CallProceeding_UUIE_fastStart fastStart;
} CallProceeding_UUIE;
typedef struct Connect_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Connect_UUIE_fastStart;
typedef struct Connect_UUIE { /* SEQUENCE */
enum {
eConnect_UUIE_h245Address = (1 << 31),
eConnect_UUIE_callIdentifier = (1 << 30),
eConnect_UUIE_h245SecurityMode = (1 << 29),
eConnect_UUIE_tokens = (1 << 28),
eConnect_UUIE_cryptoTokens = (1 << 27),
eConnect_UUIE_fastStart = (1 << 26),
eConnect_UUIE_multipleCalls = (1 << 25),
eConnect_UUIE_maintainConnection = (1 << 24),
eConnect_UUIE_language = (1 << 23),
eConnect_UUIE_connectedAddress = (1 << 22),
eConnect_UUIE_presentationIndicator = (1 << 21),
eConnect_UUIE_screeningIndicator = (1 << 20),
eConnect_UUIE_fastConnectRefused = (1 << 19),
eConnect_UUIE_serviceControl = (1 << 18),
eConnect_UUIE_capacity = (1 << 17),
eConnect_UUIE_featureSet = (1 << 16),
} options;
TransportAddress h245Address;
Connect_UUIE_fastStart fastStart;
} Connect_UUIE;
typedef struct Alerting_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Alerting_UUIE_fastStart;
typedef struct Alerting_UUIE { /* SEQUENCE */
enum {
eAlerting_UUIE_h245Address = (1 << 31),
eAlerting_UUIE_callIdentifier = (1 << 30),
eAlerting_UUIE_h245SecurityMode = (1 << 29),
eAlerting_UUIE_tokens = (1 << 28),
eAlerting_UUIE_cryptoTokens = (1 << 27),
eAlerting_UUIE_fastStart = (1 << 26),
eAlerting_UUIE_multipleCalls = (1 << 25),
eAlerting_UUIE_maintainConnection = (1 << 24),
eAlerting_UUIE_alertingAddress = (1 << 23),
eAlerting_UUIE_presentationIndicator = (1 << 22),
eAlerting_UUIE_screeningIndicator = (1 << 21),
eAlerting_UUIE_fastConnectRefused = (1 << 20),
eAlerting_UUIE_serviceControl = (1 << 19),
eAlerting_UUIE_capacity = (1 << 18),
eAlerting_UUIE_featureSet = (1 << 17),
} options;
TransportAddress h245Address;
Alerting_UUIE_fastStart fastStart;
} Alerting_UUIE;
typedef struct Information_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Information_UUIE_fastStart;
typedef struct Information_UUIE { /* SEQUENCE */
enum {
eInformation_UUIE_callIdentifier = (1 << 31),
eInformation_UUIE_tokens = (1 << 30),
eInformation_UUIE_cryptoTokens = (1 << 29),
eInformation_UUIE_fastStart = (1 << 28),
eInformation_UUIE_fastConnectRefused = (1 << 27),
eInformation_UUIE_circuitInfo = (1 << 26),
} options;
Information_UUIE_fastStart fastStart;
} Information_UUIE;
typedef struct FacilityReason { /* CHOICE */
enum {
eFacilityReason_routeCallToGatekeeper,
eFacilityReason_callForwarded,
eFacilityReason_routeCallToMC,
eFacilityReason_undefinedReason,
eFacilityReason_conferenceListChoice,
eFacilityReason_startH245,
eFacilityReason_noH245,
eFacilityReason_newTokens,
eFacilityReason_featureSetUpdate,
eFacilityReason_forwardedElements,
eFacilityReason_transportedInformation,
} choice;
} FacilityReason;
typedef struct Facility_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Facility_UUIE_fastStart;
typedef struct Facility_UUIE { /* SEQUENCE */
enum {
eFacility_UUIE_alternativeAddress = (1 << 31),
eFacility_UUIE_alternativeAliasAddress = (1 << 30),
eFacility_UUIE_conferenceID = (1 << 29),
eFacility_UUIE_callIdentifier = (1 << 28),
eFacility_UUIE_destExtraCallInfo = (1 << 27),
eFacility_UUIE_remoteExtensionAddress = (1 << 26),
eFacility_UUIE_tokens = (1 << 25),
eFacility_UUIE_cryptoTokens = (1 << 24),
eFacility_UUIE_conferences = (1 << 23),
eFacility_UUIE_h245Address = (1 << 22),
eFacility_UUIE_fastStart = (1 << 21),
eFacility_UUIE_multipleCalls = (1 << 20),
eFacility_UUIE_maintainConnection = (1 << 19),
eFacility_UUIE_fastConnectRefused = (1 << 18),
eFacility_UUIE_serviceControl = (1 << 17),
eFacility_UUIE_circuitInfo = (1 << 16),
eFacility_UUIE_featureSet = (1 << 15),
eFacility_UUIE_destinationInfo = (1 << 14),
eFacility_UUIE_h245SecurityMode = (1 << 13),
} options;
FacilityReason reason;
TransportAddress h245Address;
Facility_UUIE_fastStart fastStart;
} Facility_UUIE;
typedef struct Progress_UUIE_fastStart { /* SEQUENCE OF */
int count;
OpenLogicalChannel item[30];
} Progress_UUIE_fastStart;
typedef struct Progress_UUIE { /* SEQUENCE */
enum {
eProgress_UUIE_h245Address = (1 << 31),
eProgress_UUIE_h245SecurityMode = (1 << 30),
eProgress_UUIE_tokens = (1 << 29),
eProgress_UUIE_cryptoTokens = (1 << 28),
eProgress_UUIE_fastStart = (1 << 27),
eProgress_UUIE_multipleCalls = (1 << 26),
eProgress_UUIE_maintainConnection = (1 << 25),
eProgress_UUIE_fastConnectRefused = (1 << 24),
} options;
TransportAddress h245Address;
Progress_UUIE_fastStart fastStart;
} Progress_UUIE;
typedef struct H323_UU_PDU_h323_message_body { /* CHOICE */
enum {
eH323_UU_PDU_h323_message_body_setup,
eH323_UU_PDU_h323_message_body_callProceeding,
eH323_UU_PDU_h323_message_body_connect,
eH323_UU_PDU_h323_message_body_alerting,
eH323_UU_PDU_h323_message_body_information,
eH323_UU_PDU_h323_message_body_releaseComplete,
eH323_UU_PDU_h323_message_body_facility,
eH323_UU_PDU_h323_message_body_progress,
eH323_UU_PDU_h323_message_body_empty,
eH323_UU_PDU_h323_message_body_status,
eH323_UU_PDU_h323_message_body_statusInquiry,
eH323_UU_PDU_h323_message_body_setupAcknowledge,
eH323_UU_PDU_h323_message_body_notify,
} choice;
union {
Setup_UUIE setup;
CallProceeding_UUIE callProceeding;
Connect_UUIE connect;
Alerting_UUIE alerting;
Information_UUIE information;
Facility_UUIE facility;
Progress_UUIE progress;
};
} H323_UU_PDU_h323_message_body;
typedef struct RequestMessage { /* CHOICE */
enum {
eRequestMessage_nonStandard,
eRequestMessage_masterSlaveDetermination,
eRequestMessage_terminalCapabilitySet,
eRequestMessage_openLogicalChannel,
eRequestMessage_closeLogicalChannel,
eRequestMessage_requestChannelClose,
eRequestMessage_multiplexEntrySend,
eRequestMessage_requestMultiplexEntry,
eRequestMessage_requestMode,
eRequestMessage_roundTripDelayRequest,
eRequestMessage_maintenanceLoopRequest,
eRequestMessage_communicationModeRequest,
eRequestMessage_conferenceRequest,
eRequestMessage_multilinkRequest,
eRequestMessage_logicalChannelRateRequest,
} choice;
union {
OpenLogicalChannel openLogicalChannel;
};
} RequestMessage;
typedef struct OpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters { /* CHOICE */
enum {
eOpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters_h222LogicalChannelParameters,
eOpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters_h2250LogicalChannelParameters,
} choice;
union {
H2250LogicalChannelParameters h2250LogicalChannelParameters;
};
} OpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters;
typedef struct OpenLogicalChannelAck_reverseLogicalChannelParameters { /* SEQUENCE */
enum {
eOpenLogicalChannelAck_reverseLogicalChannelParameters_portNumber
= (1 << 31),
eOpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters
= (1 << 30),
eOpenLogicalChannelAck_reverseLogicalChannelParameters_replacementFor
= (1 << 29),
} options;
OpenLogicalChannelAck_reverseLogicalChannelParameters_multiplexParameters
multiplexParameters;
} OpenLogicalChannelAck_reverseLogicalChannelParameters;
typedef struct H2250LogicalChannelAckParameters { /* SEQUENCE */
enum {
eH2250LogicalChannelAckParameters_nonStandard = (1 << 31),
eH2250LogicalChannelAckParameters_sessionID = (1 << 30),
eH2250LogicalChannelAckParameters_mediaChannel = (1 << 29),
eH2250LogicalChannelAckParameters_mediaControlChannel =
(1 << 28),
eH2250LogicalChannelAckParameters_dynamicRTPPayloadType =
(1 << 27),
eH2250LogicalChannelAckParameters_flowControlToZero =
(1 << 26),
eH2250LogicalChannelAckParameters_portNumber = (1 << 25),
} options;
H245_TransportAddress mediaChannel;
H245_TransportAddress mediaControlChannel;
} H2250LogicalChannelAckParameters;
typedef struct OpenLogicalChannelAck_forwardMultiplexAckParameters { /* CHOICE */
enum {
eOpenLogicalChannelAck_forwardMultiplexAckParameters_h2250LogicalChannelAckParameters,
} choice;
union {
H2250LogicalChannelAckParameters
h2250LogicalChannelAckParameters;
};
} OpenLogicalChannelAck_forwardMultiplexAckParameters;
typedef struct OpenLogicalChannelAck { /* SEQUENCE */
enum {
eOpenLogicalChannelAck_reverseLogicalChannelParameters =
(1 << 31),
eOpenLogicalChannelAck_separateStack = (1 << 30),
eOpenLogicalChannelAck_forwardMultiplexAckParameters =
(1 << 29),
eOpenLogicalChannelAck_encryptionSync = (1 << 28),
} options;
OpenLogicalChannelAck_reverseLogicalChannelParameters
reverseLogicalChannelParameters;
OpenLogicalChannelAck_forwardMultiplexAckParameters
forwardMultiplexAckParameters;
} OpenLogicalChannelAck;
typedef struct ResponseMessage { /* CHOICE */
enum {
eResponseMessage_nonStandard,
eResponseMessage_masterSlaveDeterminationAck,
eResponseMessage_masterSlaveDeterminationReject,
eResponseMessage_terminalCapabilitySetAck,
eResponseMessage_terminalCapabilitySetReject,
eResponseMessage_openLogicalChannelAck,
eResponseMessage_openLogicalChannelReject,
eResponseMessage_closeLogicalChannelAck,
eResponseMessage_requestChannelCloseAck,
eResponseMessage_requestChannelCloseReject,
eResponseMessage_multiplexEntrySendAck,
eResponseMessage_multiplexEntrySendReject,
eResponseMessage_requestMultiplexEntryAck,
eResponseMessage_requestMultiplexEntryReject,
eResponseMessage_requestModeAck,
eResponseMessage_requestModeReject,
eResponseMessage_roundTripDelayResponse,
eResponseMessage_maintenanceLoopAck,
eResponseMessage_maintenanceLoopReject,
eResponseMessage_communicationModeResponse,
eResponseMessage_conferenceResponse,
eResponseMessage_multilinkResponse,
eResponseMessage_logicalChannelRateAcknowledge,
eResponseMessage_logicalChannelRateReject,
} choice;
union {
OpenLogicalChannelAck openLogicalChannelAck;
};
} ResponseMessage;
typedef struct MultimediaSystemControlMessage { /* CHOICE */
enum {
eMultimediaSystemControlMessage_request,
eMultimediaSystemControlMessage_response,
eMultimediaSystemControlMessage_command,
eMultimediaSystemControlMessage_indication,
} choice;
union {
RequestMessage request;
ResponseMessage response;
};
} MultimediaSystemControlMessage;
typedef struct H323_UU_PDU_h245Control { /* SEQUENCE OF */
int count;
MultimediaSystemControlMessage item[4];
} H323_UU_PDU_h245Control;
typedef struct H323_UU_PDU { /* SEQUENCE */
enum {
eH323_UU_PDU_nonStandardData = (1 << 31),
eH323_UU_PDU_h4501SupplementaryService = (1 << 30),
eH323_UU_PDU_h245Tunneling = (1 << 29),
eH323_UU_PDU_h245Control = (1 << 28),
eH323_UU_PDU_nonStandardControl = (1 << 27),
eH323_UU_PDU_callLinkage = (1 << 26),
eH323_UU_PDU_tunnelledSignallingMessage = (1 << 25),
eH323_UU_PDU_provisionalRespToH245Tunneling = (1 << 24),
eH323_UU_PDU_stimulusControl = (1 << 23),
eH323_UU_PDU_genericData = (1 << 22),
} options;
H323_UU_PDU_h323_message_body h323_message_body;
H323_UU_PDU_h245Control h245Control;
} H323_UU_PDU;
typedef struct H323_UserInformation { /* SEQUENCE */
enum {
eH323_UserInformation_user_data = (1 << 31),
} options;
H323_UU_PDU h323_uu_pdu;
} H323_UserInformation;
typedef struct GatekeeperRequest { /* SEQUENCE */
enum {
eGatekeeperRequest_nonStandardData = (1 << 31),
eGatekeeperRequest_gatekeeperIdentifier = (1 << 30),
eGatekeeperRequest_callServices = (1 << 29),
eGatekeeperRequest_endpointAlias = (1 << 28),
eGatekeeperRequest_alternateEndpoints = (1 << 27),
eGatekeeperRequest_tokens = (1 << 26),
eGatekeeperRequest_cryptoTokens = (1 << 25),
eGatekeeperRequest_authenticationCapability = (1 << 24),
eGatekeeperRequest_algorithmOIDs = (1 << 23),
eGatekeeperRequest_integrity = (1 << 22),
eGatekeeperRequest_integrityCheckValue = (1 << 21),
eGatekeeperRequest_supportsAltGK = (1 << 20),
eGatekeeperRequest_featureSet = (1 << 19),
eGatekeeperRequest_genericData = (1 << 18),
} options;
TransportAddress rasAddress;
} GatekeeperRequest;
typedef struct GatekeeperConfirm { /* SEQUENCE */
enum {
eGatekeeperConfirm_nonStandardData = (1 << 31),
eGatekeeperConfirm_gatekeeperIdentifier = (1 << 30),
eGatekeeperConfirm_alternateGatekeeper = (1 << 29),
eGatekeeperConfirm_authenticationMode = (1 << 28),
eGatekeeperConfirm_tokens = (1 << 27),
eGatekeeperConfirm_cryptoTokens = (1 << 26),
eGatekeeperConfirm_algorithmOID = (1 << 25),
eGatekeeperConfirm_integrity = (1 << 24),
eGatekeeperConfirm_integrityCheckValue = (1 << 23),
eGatekeeperConfirm_featureSet = (1 << 22),
eGatekeeperConfirm_genericData = (1 << 21),
} options;
TransportAddress rasAddress;
} GatekeeperConfirm;
typedef struct RegistrationRequest_callSignalAddress { /* SEQUENCE OF */
int count;
TransportAddress item[10];
} RegistrationRequest_callSignalAddress;
typedef struct RegistrationRequest_rasAddress { /* SEQUENCE OF */
int count;
TransportAddress item[10];
} RegistrationRequest_rasAddress;
typedef struct RegistrationRequest { /* SEQUENCE */
enum {
eRegistrationRequest_nonStandardData = (1 << 31),
eRegistrationRequest_terminalAlias = (1 << 30),
eRegistrationRequest_gatekeeperIdentifier = (1 << 29),
eRegistrationRequest_alternateEndpoints = (1 << 28),
eRegistrationRequest_timeToLive = (1 << 27),
eRegistrationRequest_tokens = (1 << 26),
eRegistrationRequest_cryptoTokens = (1 << 25),
eRegistrationRequest_integrityCheckValue = (1 << 24),
eRegistrationRequest_keepAlive = (1 << 23),
eRegistrationRequest_endpointIdentifier = (1 << 22),
eRegistrationRequest_willSupplyUUIEs = (1 << 21),
eRegistrationRequest_maintainConnection = (1 << 20),
eRegistrationRequest_alternateTransportAddresses = (1 << 19),
eRegistrationRequest_additiveRegistration = (1 << 18),
eRegistrationRequest_terminalAliasPattern = (1 << 17),
eRegistrationRequest_supportsAltGK = (1 << 16),
eRegistrationRequest_usageReportingCapability = (1 << 15),
eRegistrationRequest_multipleCalls = (1 << 14),
eRegistrationRequest_supportedH248Packages = (1 << 13),
eRegistrationRequest_callCreditCapability = (1 << 12),
eRegistrationRequest_capacityReportingCapability = (1 << 11),
eRegistrationRequest_capacity = (1 << 10),
eRegistrationRequest_featureSet = (1 << 9),
eRegistrationRequest_genericData = (1 << 8),
} options;
RegistrationRequest_callSignalAddress callSignalAddress;
RegistrationRequest_rasAddress rasAddress;
unsigned timeToLive;
} RegistrationRequest;
typedef struct RegistrationConfirm_callSignalAddress { /* SEQUENCE OF */
int count;
TransportAddress item[10];
} RegistrationConfirm_callSignalAddress;
typedef struct RegistrationConfirm { /* SEQUENCE */
enum {
eRegistrationConfirm_nonStandardData = (1 << 31),
eRegistrationConfirm_terminalAlias = (1 << 30),
eRegistrationConfirm_gatekeeperIdentifier = (1 << 29),
eRegistrationConfirm_alternateGatekeeper = (1 << 28),
eRegistrationConfirm_timeToLive = (1 << 27),
eRegistrationConfirm_tokens = (1 << 26),
eRegistrationConfirm_cryptoTokens = (1 << 25),
eRegistrationConfirm_integrityCheckValue = (1 << 24),
eRegistrationConfirm_willRespondToIRR = (1 << 23),
eRegistrationConfirm_preGrantedARQ = (1 << 22),
eRegistrationConfirm_maintainConnection = (1 << 21),
eRegistrationConfirm_serviceControl = (1 << 20),
eRegistrationConfirm_supportsAdditiveRegistration = (1 << 19),
eRegistrationConfirm_terminalAliasPattern = (1 << 18),
eRegistrationConfirm_supportedPrefixes = (1 << 17),
eRegistrationConfirm_usageSpec = (1 << 16),
eRegistrationConfirm_featureServerAlias = (1 << 15),
eRegistrationConfirm_capacityReportingSpec = (1 << 14),
eRegistrationConfirm_featureSet = (1 << 13),
eRegistrationConfirm_genericData = (1 << 12),
} options;
RegistrationConfirm_callSignalAddress callSignalAddress;
unsigned timeToLive;
} RegistrationConfirm;
typedef struct UnregistrationRequest_callSignalAddress { /* SEQUENCE OF */
int count;
TransportAddress item[10];
} UnregistrationRequest_callSignalAddress;
typedef struct UnregistrationRequest { /* SEQUENCE */
enum {
eUnregistrationRequest_endpointAlias = (1 << 31),
eUnregistrationRequest_nonStandardData = (1 << 30),
eUnregistrationRequest_endpointIdentifier = (1 << 29),
eUnregistrationRequest_alternateEndpoints = (1 << 28),
eUnregistrationRequest_gatekeeperIdentifier = (1 << 27),
eUnregistrationRequest_tokens = (1 << 26),
eUnregistrationRequest_cryptoTokens = (1 << 25),
eUnregistrationRequest_integrityCheckValue = (1 << 24),
eUnregistrationRequest_reason = (1 << 23),
eUnregistrationRequest_endpointAliasPattern = (1 << 22),
eUnregistrationRequest_supportedPrefixes = (1 << 21),
eUnregistrationRequest_alternateGatekeeper = (1 << 20),
eUnregistrationRequest_genericData = (1 << 19),
} options;
UnregistrationRequest_callSignalAddress callSignalAddress;
} UnregistrationRequest;
typedef struct AdmissionRequest { /* SEQUENCE */
enum {
eAdmissionRequest_callModel = (1 << 31),
eAdmissionRequest_destinationInfo = (1 << 30),
eAdmissionRequest_destCallSignalAddress = (1 << 29),
eAdmissionRequest_destExtraCallInfo = (1 << 28),
eAdmissionRequest_srcCallSignalAddress = (1 << 27),
eAdmissionRequest_nonStandardData = (1 << 26),
eAdmissionRequest_callServices = (1 << 25),
eAdmissionRequest_canMapAlias = (1 << 24),
eAdmissionRequest_callIdentifier = (1 << 23),
eAdmissionRequest_srcAlternatives = (1 << 22),
eAdmissionRequest_destAlternatives = (1 << 21),
eAdmissionRequest_gatekeeperIdentifier = (1 << 20),
eAdmissionRequest_tokens = (1 << 19),
eAdmissionRequest_cryptoTokens = (1 << 18),
eAdmissionRequest_integrityCheckValue = (1 << 17),
eAdmissionRequest_transportQOS = (1 << 16),
eAdmissionRequest_willSupplyUUIEs = (1 << 15),
eAdmissionRequest_callLinkage = (1 << 14),
eAdmissionRequest_gatewayDataRate = (1 << 13),
eAdmissionRequest_capacity = (1 << 12),
eAdmissionRequest_circuitInfo = (1 << 11),
eAdmissionRequest_desiredProtocols = (1 << 10),
eAdmissionRequest_desiredTunnelledProtocol = (1 << 9),
eAdmissionRequest_featureSet = (1 << 8),
eAdmissionRequest_genericData = (1 << 7),
} options;
TransportAddress destCallSignalAddress;
TransportAddress srcCallSignalAddress;
} AdmissionRequest;
typedef struct AdmissionConfirm { /* SEQUENCE */
enum {
eAdmissionConfirm_irrFrequency = (1 << 31),
eAdmissionConfirm_nonStandardData = (1 << 30),
eAdmissionConfirm_destinationInfo = (1 << 29),
eAdmissionConfirm_destExtraCallInfo = (1 << 28),
eAdmissionConfirm_destinationType = (1 << 27),
eAdmissionConfirm_remoteExtensionAddress = (1 << 26),
eAdmissionConfirm_alternateEndpoints = (1 << 25),
eAdmissionConfirm_tokens = (1 << 24),
eAdmissionConfirm_cryptoTokens = (1 << 23),
eAdmissionConfirm_integrityCheckValue = (1 << 22),
eAdmissionConfirm_transportQOS = (1 << 21),
eAdmissionConfirm_willRespondToIRR = (1 << 20),
eAdmissionConfirm_uuiesRequested = (1 << 19),
eAdmissionConfirm_language = (1 << 18),
eAdmissionConfirm_alternateTransportAddresses = (1 << 17),
eAdmissionConfirm_useSpecifiedTransport = (1 << 16),
eAdmissionConfirm_circuitInfo = (1 << 15),
eAdmissionConfirm_usageSpec = (1 << 14),
eAdmissionConfirm_supportedProtocols = (1 << 13),
eAdmissionConfirm_serviceControl = (1 << 12),
eAdmissionConfirm_multipleCalls = (1 << 11),
eAdmissionConfirm_featureSet = (1 << 10),
eAdmissionConfirm_genericData = (1 << 9),
} options;
TransportAddress destCallSignalAddress;
} AdmissionConfirm;
typedef struct LocationRequest { /* SEQUENCE */
enum {
eLocationRequest_endpointIdentifier = (1 << 31),
eLocationRequest_nonStandardData = (1 << 30),
eLocationRequest_sourceInfo = (1 << 29),
eLocationRequest_canMapAlias = (1 << 28),
eLocationRequest_gatekeeperIdentifier = (1 << 27),
eLocationRequest_tokens = (1 << 26),
eLocationRequest_cryptoTokens = (1 << 25),
eLocationRequest_integrityCheckValue = (1 << 24),
eLocationRequest_desiredProtocols = (1 << 23),
eLocationRequest_desiredTunnelledProtocol = (1 << 22),
eLocationRequest_featureSet = (1 << 21),
eLocationRequest_genericData = (1 << 20),
eLocationRequest_hopCount = (1 << 19),
eLocationRequest_circuitInfo = (1 << 18),
} options;
TransportAddress replyAddress;
} LocationRequest;
typedef struct LocationConfirm { /* SEQUENCE */
enum {
eLocationConfirm_nonStandardData = (1 << 31),
eLocationConfirm_destinationInfo = (1 << 30),
eLocationConfirm_destExtraCallInfo = (1 << 29),
eLocationConfirm_destinationType = (1 << 28),
eLocationConfirm_remoteExtensionAddress = (1 << 27),
eLocationConfirm_alternateEndpoints = (1 << 26),
eLocationConfirm_tokens = (1 << 25),
eLocationConfirm_cryptoTokens = (1 << 24),
eLocationConfirm_integrityCheckValue = (1 << 23),
eLocationConfirm_alternateTransportAddresses = (1 << 22),
eLocationConfirm_supportedProtocols = (1 << 21),
eLocationConfirm_multipleCalls = (1 << 20),
eLocationConfirm_featureSet = (1 << 19),
eLocationConfirm_genericData = (1 << 18),
eLocationConfirm_circuitInfo = (1 << 17),
eLocationConfirm_serviceControl = (1 << 16),
} options;
TransportAddress callSignalAddress;
TransportAddress rasAddress;
} LocationConfirm;
typedef struct InfoRequestResponse_callSignalAddress { /* SEQUENCE OF */
int count;
TransportAddress item[10];
} InfoRequestResponse_callSignalAddress;
typedef struct InfoRequestResponse { /* SEQUENCE */
enum {
eInfoRequestResponse_nonStandardData = (1 << 31),
eInfoRequestResponse_endpointAlias = (1 << 30),
eInfoRequestResponse_perCallInfo = (1 << 29),
eInfoRequestResponse_tokens = (1 << 28),
eInfoRequestResponse_cryptoTokens = (1 << 27),
eInfoRequestResponse_integrityCheckValue = (1 << 26),
eInfoRequestResponse_needResponse = (1 << 25),
eInfoRequestResponse_capacity = (1 << 24),
eInfoRequestResponse_irrStatus = (1 << 23),
eInfoRequestResponse_unsolicited = (1 << 22),
eInfoRequestResponse_genericData = (1 << 21),
} options;
TransportAddress rasAddress;
InfoRequestResponse_callSignalAddress callSignalAddress;
} InfoRequestResponse;
typedef struct RasMessage { /* CHOICE */
enum {
eRasMessage_gatekeeperRequest,
eRasMessage_gatekeeperConfirm,
eRasMessage_gatekeeperReject,
eRasMessage_registrationRequest,
eRasMessage_registrationConfirm,
eRasMessage_registrationReject,
eRasMessage_unregistrationRequest,
eRasMessage_unregistrationConfirm,
eRasMessage_unregistrationReject,
eRasMessage_admissionRequest,
eRasMessage_admissionConfirm,
eRasMessage_admissionReject,
eRasMessage_bandwidthRequest,
eRasMessage_bandwidthConfirm,
eRasMessage_bandwidthReject,
eRasMessage_disengageRequest,
eRasMessage_disengageConfirm,
eRasMessage_disengageReject,
eRasMessage_locationRequest,
eRasMessage_locationConfirm,
eRasMessage_locationReject,
eRasMessage_infoRequest,
eRasMessage_infoRequestResponse,
eRasMessage_nonStandardMessage,
eRasMessage_unknownMessageResponse,
eRasMessage_requestInProgress,
eRasMessage_resourcesAvailableIndicate,
eRasMessage_resourcesAvailableConfirm,
eRasMessage_infoRequestAck,
eRasMessage_infoRequestNak,
eRasMessage_serviceControlIndication,
eRasMessage_serviceControlResponse,
} choice;
union {
GatekeeperRequest gatekeeperRequest;
GatekeeperConfirm gatekeeperConfirm;
RegistrationRequest registrationRequest;
RegistrationConfirm registrationConfirm;
UnregistrationRequest unregistrationRequest;
AdmissionRequest admissionRequest;
AdmissionConfirm admissionConfirm;
LocationRequest locationRequest;
LocationConfirm locationConfirm;
InfoRequestResponse infoRequestResponse;
};
} RasMessage;

View File

@ -0,0 +1,605 @@
/*
* H.323 extension for NAT alteration.
*
* Copyright (c) 2006 Jing Min Zhao <zhaojingmin@users.sourceforge.net>
*
* This source code is licensed under General Public License version 2.
*
* Based on the 'brute force' H.323 NAT module by
* Jozsef Kadlecsik <kadlec@blackhole.kfki.hu>
*
* Changes:
* 2006-02-01 - initial version 0.1
*
* 2006-02-20 - version 0.2
* 1. Changed source format to follow kernel conventions
* 2. Deleted some unnecessary structures
* 3. Minor fixes
*
* 2006-03-10 - version 0.3
* 1. Added support for multiple TPKTs in one packet (suggested by
* Patrick McHardy)
* 2. Added support for non-linear skb (based on Patrick McHardy's patch)
* 3. Eliminated unnecessary return code
*
* 2006-03-15 - version 0.4
* 1. Added support for T.120 channels
* 2. Added parameter gkrouted_only (suggested by Patrick McHardy)
*/
#include <linux/module.h>
#include <linux/netfilter_ipv4.h>
#include <linux/netfilter.h>
#include <linux/ip.h>
#include <linux/tcp.h>
#include <linux/moduleparam.h>
#include <net/tcp.h>
#include <linux/netfilter_ipv4/ip_nat.h>
#include <linux/netfilter_ipv4/ip_nat_helper.h>
#include <linux/netfilter_ipv4/ip_nat_rule.h>
#include <linux/netfilter_ipv4/ip_conntrack_tuple.h>
#include <linux/netfilter_ipv4/ip_conntrack_h323.h>
#include <linux/netfilter_ipv4/ip_conntrack_helper.h>
#include "ip_conntrack_helper_h323_asn1.h"
#if 0
#define DEBUGP printk
#else
#define DEBUGP(format, args...)
#endif
extern int get_h245_addr(unsigned char *data, H245_TransportAddress * addr,
u_int32_t * ip, u_int16_t * port);
extern int get_h225_addr(unsigned char *data, TransportAddress * addr,
u_int32_t * ip, u_int16_t * port);
extern void ip_conntrack_h245_expect(struct ip_conntrack *new,
struct ip_conntrack_expect *this);
extern void ip_conntrack_q931_expect(struct ip_conntrack *new,
struct ip_conntrack_expect *this);
extern int (*set_h245_addr_hook) (struct sk_buff ** pskb,
unsigned char **data, int dataoff,
H245_TransportAddress * addr,
u_int32_t ip, u_int16_t port);
extern int (*set_h225_addr_hook) (struct sk_buff ** pskb,
unsigned char **data, int dataoff,
TransportAddress * addr,
u_int32_t ip, u_int16_t port);
extern int (*set_sig_addr_hook) (struct sk_buff ** pskb,
struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data,
TransportAddress * addr, int count);
extern int (*set_ras_addr_hook) (struct sk_buff ** pskb,
struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data,
TransportAddress * addr, int count);
extern int (*nat_rtp_rtcp_hook) (struct sk_buff ** pskb,
struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
H245_TransportAddress * addr,
u_int16_t port, u_int16_t rtp_port,
struct ip_conntrack_expect * rtp_exp,
struct ip_conntrack_expect * rtcp_exp);
extern int (*nat_t120_hook) (struct sk_buff ** pskb, struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
H245_TransportAddress * addr, u_int16_t port,
struct ip_conntrack_expect * exp);
extern int (*nat_h245_hook) (struct sk_buff ** pskb, struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
TransportAddress * addr, u_int16_t port,
struct ip_conntrack_expect * exp);
extern int (*nat_q931_hook) (struct sk_buff ** pskb, struct ip_conntrack * ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, TransportAddress * addr,
int idx, u_int16_t port,
struct ip_conntrack_expect * exp);
/****************************************************************************/
static int set_addr(struct sk_buff **pskb,
unsigned char **data, int dataoff,
unsigned int addroff, u_int32_t ip, u_int16_t port)
{
enum ip_conntrack_info ctinfo;
struct ip_conntrack *ct = ip_conntrack_get(*pskb, &ctinfo);
struct {
u_int32_t ip;
u_int16_t port;
} __attribute__ ((__packed__)) buf;
struct tcphdr _tcph, *th;
buf.ip = ip;
buf.port = htons(port);
addroff += dataoff;
if ((*pskb)->nh.iph->protocol == IPPROTO_TCP) {
if (!ip_nat_mangle_tcp_packet(pskb, ct, ctinfo,
addroff, sizeof(buf),
(char *) &buf, sizeof(buf))) {
if (net_ratelimit())
printk("ip_nat_h323: ip_nat_mangle_tcp_packet"
" error\n");
return -1;
}
/* Relocate data pointer */
th = skb_header_pointer(*pskb, (*pskb)->nh.iph->ihl * 4,
sizeof(_tcph), &_tcph);
if (th == NULL)
return -1;
*data = (*pskb)->data + (*pskb)->nh.iph->ihl * 4 +
th->doff * 4 + dataoff;
} else {
if (!ip_nat_mangle_udp_packet(pskb, ct, ctinfo,
addroff, sizeof(buf),
(char *) &buf, sizeof(buf))) {
if (net_ratelimit())
printk("ip_nat_h323: ip_nat_mangle_udp_packet"
" error\n");
return -1;
}
/* ip_nat_mangle_udp_packet uses skb_make_writable() to copy
* or pull everything in a linear buffer, so we can safely
* use the skb pointers now */
*data = (*pskb)->data + (*pskb)->nh.iph->ihl * 4 +
sizeof(struct udphdr);
}
return 0;
}
/****************************************************************************/
static int set_h225_addr(struct sk_buff **pskb,
unsigned char **data, int dataoff,
TransportAddress * addr,
u_int32_t ip, u_int16_t port)
{
return set_addr(pskb, data, dataoff, addr->ipAddress.ip, ip, port);
}
/****************************************************************************/
static int set_h245_addr(struct sk_buff **pskb,
unsigned char **data, int dataoff,
H245_TransportAddress * addr,
u_int32_t ip, u_int16_t port)
{
return set_addr(pskb, data, dataoff,
addr->unicastAddress.iPAddress.network, ip, port);
}
/****************************************************************************/
static int set_sig_addr(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data,
TransportAddress * addr, int count)
{
struct ip_ct_h323_master *info = &ct->help.ct_h323_info;
int dir = CTINFO2DIR(ctinfo);
int i;
u_int32_t ip;
u_int16_t port;
for (i = 0; i < count; i++) {
if (get_h225_addr(*data, &addr[i], &ip, &port)) {
if (ip == ct->tuplehash[dir].tuple.src.ip &&
port == info->sig_port[dir]) {
/* GW->GK */
/* Fix for Gnomemeeting */
if (i > 0 &&
get_h225_addr(*data, &addr[0],
&ip, &port) &&
(ntohl(ip) & 0xff000000) == 0x7f000000)
i = 0;
DEBUGP
("ip_nat_ras: set signal address "
"%u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(ip), port,
NIPQUAD(ct->tuplehash[!dir].tuple.dst.
ip), info->sig_port[!dir]);
return set_h225_addr(pskb, data, 0, &addr[i],
ct->tuplehash[!dir].
tuple.dst.ip,
info->sig_port[!dir]);
} else if (ip == ct->tuplehash[dir].tuple.dst.ip &&
port == info->sig_port[dir]) {
/* GK->GW */
DEBUGP
("ip_nat_ras: set signal address "
"%u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(ip), port,
NIPQUAD(ct->tuplehash[!dir].tuple.src.
ip), info->sig_port[!dir]);
return set_h225_addr(pskb, data, 0, &addr[i],
ct->tuplehash[!dir].
tuple.src.ip,
info->sig_port[!dir]);
}
}
}
return 0;
}
/****************************************************************************/
static int set_ras_addr(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data,
TransportAddress * addr, int count)
{
int dir = CTINFO2DIR(ctinfo);
int i;
u_int32_t ip;
u_int16_t port;
for (i = 0; i < count; i++) {
if (get_h225_addr(*data, &addr[i], &ip, &port) &&
ip == ct->tuplehash[dir].tuple.src.ip &&
port == ntohs(ct->tuplehash[dir].tuple.src.u.udp.port)) {
DEBUGP("ip_nat_ras: set rasAddress "
"%u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(ip), port,
NIPQUAD(ct->tuplehash[!dir].tuple.dst.ip),
ntohs(ct->tuplehash[!dir].tuple.dst.u.udp.
port));
return set_h225_addr(pskb, data, 0, &addr[i],
ct->tuplehash[!dir].tuple.dst.ip,
ntohs(ct->tuplehash[!dir].tuple.
dst.u.udp.port));
}
}
return 0;
}
/****************************************************************************/
static int nat_rtp_rtcp(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
H245_TransportAddress * addr,
u_int16_t port, u_int16_t rtp_port,
struct ip_conntrack_expect *rtp_exp,
struct ip_conntrack_expect *rtcp_exp)
{
struct ip_ct_h323_master *info = &ct->help.ct_h323_info;
int dir = CTINFO2DIR(ctinfo);
int i;
u_int16_t nated_port;
/* Set expectations for NAT */
rtp_exp->saved_proto.udp.port = rtp_exp->tuple.dst.u.udp.port;
rtp_exp->expectfn = ip_nat_follow_master;
rtp_exp->dir = !dir;
rtcp_exp->saved_proto.udp.port = rtcp_exp->tuple.dst.u.udp.port;
rtcp_exp->expectfn = ip_nat_follow_master;
rtcp_exp->dir = !dir;
/* Lookup existing expects */
for (i = 0; i < H323_RTP_CHANNEL_MAX; i++) {
if (info->rtp_port[i][dir] == rtp_port) {
/* Expected */
/* Use allocated ports first. This will refresh
* the expects */
rtp_exp->tuple.dst.u.udp.port =
htons(info->rtp_port[i][dir]);
rtcp_exp->tuple.dst.u.udp.port =
htons(info->rtp_port[i][dir] + 1);
break;
} else if (info->rtp_port[i][dir] == 0) {
/* Not expected */
break;
}
}
/* Run out of expectations */
if (i >= H323_RTP_CHANNEL_MAX) {
if (net_ratelimit())
printk("ip_nat_h323: out of expectations\n");
return 0;
}
/* Try to get a pair of ports. */
for (nated_port = ntohs(rtp_exp->tuple.dst.u.udp.port);
nated_port != 0; nated_port += 2) {
rtp_exp->tuple.dst.u.udp.port = htons(nated_port);
if (ip_conntrack_expect_related(rtp_exp) == 0) {
rtcp_exp->tuple.dst.u.udp.port =
htons(nated_port + 1);
if (ip_conntrack_expect_related(rtcp_exp) == 0)
break;
ip_conntrack_unexpect_related(rtp_exp);
}
}
if (nated_port == 0) { /* No port available */
if (net_ratelimit())
printk("ip_nat_h323: out of RTP ports\n");
return 0;
}
/* Modify signal */
if (set_h245_addr(pskb, data, dataoff, addr,
ct->tuplehash[!dir].tuple.dst.ip,
(port & 1) ? nated_port + 1 : nated_port) == 0) {
/* Save ports */
info->rtp_port[i][dir] = rtp_port;
info->rtp_port[i][!dir] = nated_port;
} else {
ip_conntrack_unexpect_related(rtp_exp);
ip_conntrack_unexpect_related(rtcp_exp);
return -1;
}
/* Success */
DEBUGP("ip_nat_h323: expect RTP %u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(rtp_exp->tuple.src.ip),
ntohs(rtp_exp->tuple.src.u.udp.port),
NIPQUAD(rtp_exp->tuple.dst.ip),
ntohs(rtp_exp->tuple.dst.u.udp.port));
DEBUGP("ip_nat_h323: expect RTCP %u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(rtcp_exp->tuple.src.ip),
ntohs(rtcp_exp->tuple.src.u.udp.port),
NIPQUAD(rtcp_exp->tuple.dst.ip),
ntohs(rtcp_exp->tuple.dst.u.udp.port));
return 0;
}
/****************************************************************************/
static int nat_t120(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
H245_TransportAddress * addr, u_int16_t port,
struct ip_conntrack_expect *exp)
{
int dir = CTINFO2DIR(ctinfo);
u_int16_t nated_port = port;
/* Set expectations for NAT */
exp->saved_proto.tcp.port = exp->tuple.dst.u.tcp.port;
exp->expectfn = ip_nat_follow_master;
exp->dir = !dir;
/* Try to get same port: if not, try to change it. */
for (; nated_port != 0; nated_port++) {
exp->tuple.dst.u.tcp.port = htons(nated_port);
if (ip_conntrack_expect_related(exp) == 0)
break;
}
if (nated_port == 0) { /* No port available */
if (net_ratelimit())
printk("ip_nat_h323: out of TCP ports\n");
return 0;
}
/* Modify signal */
if (set_h245_addr(pskb, data, dataoff, addr,
ct->tuplehash[!dir].tuple.dst.ip, nated_port) < 0) {
ip_conntrack_unexpect_related(exp);
return -1;
}
DEBUGP("ip_nat_h323: expect T.120 %u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(exp->tuple.src.ip), ntohs(exp->tuple.src.u.tcp.port),
NIPQUAD(exp->tuple.dst.ip), ntohs(exp->tuple.dst.u.tcp.port));
return 0;
}
/****************************************************************************
* This conntrack expect function replaces ip_conntrack_h245_expect()
* which was set by ip_conntrack_helper_h323.c. It calls both
* ip_nat_follow_master() and ip_conntrack_h245_expect()
****************************************************************************/
static void ip_nat_h245_expect(struct ip_conntrack *new,
struct ip_conntrack_expect *this)
{
ip_nat_follow_master(new, this);
ip_conntrack_h245_expect(new, this);
}
/****************************************************************************/
static int nat_h245(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, int dataoff,
TransportAddress * addr, u_int16_t port,
struct ip_conntrack_expect *exp)
{
struct ip_ct_h323_master *info = &ct->help.ct_h323_info;
int dir = CTINFO2DIR(ctinfo);
u_int16_t nated_port = port;
/* Set expectations for NAT */
exp->saved_proto.tcp.port = exp->tuple.dst.u.tcp.port;
exp->expectfn = ip_nat_h245_expect;
exp->dir = !dir;
/* Check existing expects */
if (info->sig_port[dir] == port)
nated_port = info->sig_port[!dir];
/* Try to get same port: if not, try to change it. */
for (; nated_port != 0; nated_port++) {
exp->tuple.dst.u.tcp.port = htons(nated_port);
if (ip_conntrack_expect_related(exp) == 0)
break;
}
if (nated_port == 0) { /* No port available */
if (net_ratelimit())
printk("ip_nat_q931: out of TCP ports\n");
return 0;
}
/* Modify signal */
if (set_h225_addr(pskb, data, dataoff, addr,
ct->tuplehash[!dir].tuple.dst.ip,
nated_port) == 0) {
/* Save ports */
info->sig_port[dir] = port;
info->sig_port[!dir] = nated_port;
} else {
ip_conntrack_unexpect_related(exp);
return -1;
}
DEBUGP("ip_nat_q931: expect H.245 %u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(exp->tuple.src.ip), ntohs(exp->tuple.src.u.tcp.port),
NIPQUAD(exp->tuple.dst.ip), ntohs(exp->tuple.dst.u.tcp.port));
return 0;
}
/****************************************************************************
* This conntrack expect function replaces ip_conntrack_q931_expect()
* which was set by ip_conntrack_helper_h323.c.
****************************************************************************/
static void ip_nat_q931_expect(struct ip_conntrack *new,
struct ip_conntrack_expect *this)
{
struct ip_nat_range range;
if (this->tuple.src.ip != 0) { /* Only accept calls from GK */
ip_nat_follow_master(new, this);
goto out;
}
/* This must be a fresh one. */
BUG_ON(new->status & IPS_NAT_DONE_MASK);
/* Change src to where master sends to */
range.flags = IP_NAT_RANGE_MAP_IPS;
range.min_ip = range.max_ip = new->tuplehash[!this->dir].tuple.src.ip;
/* hook doesn't matter, but it has to do source manip */
ip_nat_setup_info(new, &range, NF_IP_POST_ROUTING);
/* For DST manip, map port here to where it's expected. */
range.flags = (IP_NAT_RANGE_MAP_IPS | IP_NAT_RANGE_PROTO_SPECIFIED);
range.min = range.max = this->saved_proto;
range.min_ip = range.max_ip =
new->master->tuplehash[!this->dir].tuple.src.ip;
/* hook doesn't matter, but it has to do destination manip */
ip_nat_setup_info(new, &range, NF_IP_PRE_ROUTING);
out:
ip_conntrack_q931_expect(new, this);
}
/****************************************************************************/
static int nat_q931(struct sk_buff **pskb, struct ip_conntrack *ct,
enum ip_conntrack_info ctinfo,
unsigned char **data, TransportAddress * addr, int idx,
u_int16_t port, struct ip_conntrack_expect *exp)
{
struct ip_ct_h323_master *info = &ct->help.ct_h323_info;
int dir = CTINFO2DIR(ctinfo);
u_int16_t nated_port = port;
u_int32_t ip;
/* Set expectations for NAT */
exp->saved_proto.tcp.port = exp->tuple.dst.u.tcp.port;
exp->expectfn = ip_nat_q931_expect;
exp->dir = !dir;
/* Check existing expects */
if (info->sig_port[dir] == port)
nated_port = info->sig_port[!dir];
/* Try to get same port: if not, try to change it. */
for (; nated_port != 0; nated_port++) {
exp->tuple.dst.u.tcp.port = htons(nated_port);
if (ip_conntrack_expect_related(exp) == 0)
break;
}
if (nated_port == 0) { /* No port available */
if (net_ratelimit())
printk("ip_nat_ras: out of TCP ports\n");
return 0;
}
/* Modify signal */
if (set_h225_addr(pskb, data, 0, &addr[idx],
ct->tuplehash[!dir].tuple.dst.ip,
nated_port) == 0) {
/* Save ports */
info->sig_port[dir] = port;
info->sig_port[!dir] = nated_port;
/* Fix for Gnomemeeting */
if (idx > 0 &&
get_h225_addr(*data, &addr[0], &ip, &port) &&
(ntohl(ip) & 0xff000000) == 0x7f000000) {
set_h225_addr_hook(pskb, data, 0, &addr[0],
ct->tuplehash[!dir].tuple.dst.ip,
info->sig_port[!dir]);
}
} else {
ip_conntrack_unexpect_related(exp);
return -1;
}
/* Success */
DEBUGP("ip_nat_ras: expect Q.931 %u.%u.%u.%u:%hu->%u.%u.%u.%u:%hu\n",
NIPQUAD(exp->tuple.src.ip), ntohs(exp->tuple.src.u.tcp.port),
NIPQUAD(exp->tuple.dst.ip), ntohs(exp->tuple.dst.u.tcp.port));
return 0;
}
/****************************************************************************/
static int __init init(void)
{
BUG_ON(set_h245_addr_hook != NULL);
BUG_ON(set_h225_addr_hook != NULL);
BUG_ON(set_sig_addr_hook != NULL);
BUG_ON(set_ras_addr_hook != NULL);
BUG_ON(nat_rtp_rtcp_hook != NULL);
BUG_ON(nat_t120_hook != NULL);
BUG_ON(nat_h245_hook != NULL);
BUG_ON(nat_q931_hook != NULL);
set_h245_addr_hook = set_h245_addr;
set_h225_addr_hook = set_h225_addr;
set_sig_addr_hook = set_sig_addr;
set_ras_addr_hook = set_ras_addr;
nat_rtp_rtcp_hook = nat_rtp_rtcp;
nat_t120_hook = nat_t120;
nat_h245_hook = nat_h245;
nat_q931_hook = nat_q931;
DEBUGP("ip_nat_h323: init success\n");
return 0;
}
/****************************************************************************/
static void __exit fini(void)
{
set_h245_addr_hook = NULL;
set_h225_addr_hook = NULL;
set_sig_addr_hook = NULL;
set_ras_addr_hook = NULL;
nat_rtp_rtcp_hook = NULL;
nat_t120_hook = NULL;
nat_h245_hook = NULL;
nat_q931_hook = NULL;
synchronize_net();
}
/****************************************************************************/
module_init(init);
module_exit(fini);
MODULE_AUTHOR("Jing Min Zhao <zhaojingmin@users.sourceforge.net>");
MODULE_DESCRIPTION("H.323 NAT helper");
MODULE_LICENSE("GPL");